Sex-differences in fine-scale home-range use in an upper-trophic level marine predator

The distribution of prey in the ocean is spatially and temporally patchy. How predators respond to this prey patchiness may have consequences on their foraging success, and thus physical condition. The recent ability to record fine-scale movements of marine animals combined with novel home-range ana...

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Bibliographic Details
Published in:Movement ecology 2020-02, Vol.8 (1), p.11-11, Article 11
Main Authors: Lidgard, D C, Bowen, W D, Iverson, S J
Format: Article
Language:English
Subjects:
Accuracy
Animal behavior
Archives & records
Breastfeeding & lactation
Breeding seasons
Contraction
Convexity
Females
Foraging behavior
Foraging behaviour
Foraging ecology
Foraging habitats
Gender differences
Global positioning systems
GPS
Grey seals
Habitat utilization
Home range
Hulls
Identity
Males
Marine animals
Marine mammal
Marine mammals
Marine organisms
Movement
Novels
Observations
Oceans
Pinniped
Predation (Biology)
Predators
Prey
Satellite navigation systems
Seals
Seasonal distribution
Seasonal variations
Sex
Sex differences (Biology)
Sexual behavior
Site fidelity
T-LoCoH
Tactics
Time
Trophic levels
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Summary:The distribution of prey in the ocean is spatially and temporally patchy. How predators respond to this prey patchiness may have consequences on their foraging success, and thus physical condition. The recent ability to record fine-scale movements of marine animals combined with novel home-range analyses that incorporate the dimension of time should permit a better understanding of how individuals utilise different regions of space and the consequences on their foraging success. Over a six-year study, we used T-LoCoH (Time-Local Convex Hull) home-range software to model archival GPS (Global Positioning System) data from 81 grey seals to investigate the fine-scale spatio-temporal use of space and the distribution of apparent foraging effort. Regions of home-ranges were classified according to the frequency of return visits (site fidelity) and duration of visits (intensity of use). Generalized linear mixed -effects models were used to test hypotheses on seasonal changes in foraging distribution and behaviour and the role of space-use and state on determining foraging success. Male grey seals had larger home-ranges and core areas than females, and both sexes showed a contraction in home-range and core area in fall leading up to the breeding season compared with summer. Heavier individuals had smaller core areas than lighter ones, suggesting access to higher quality habitat might be limited to those individuals with greater foraging experience and competitive ability. The size of the home-range or core area was not an important predictor of the rate of mass gain. A fine-scale spatio-temporal analysis of habitat use within the home-range provided evidence of intra-annual site fidelity at presumed foraging locations, suggesting predictably in prey distribution. Neither sex nor season were useful predictors for classifying behaviour. Rather, individual identity explained much of the variation in fine-scale behaviour. Understanding how upper-trophic level marine predators use space provides opportunities to explore the consequences of variation in foraging tactics and their success on fitness. Having knowledge of the drivers that shape this intraspecific variation can contribute toward predicting how these predators may respond to both natural and man-made environmental forcing.
ISSN:2051-3933
2051-3933
DOI:10.1186/s40462-020-0196-y